131calculo3-study_skills.pdf

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UNIVERSITY OF

CAMBRIDGE

Faculty of Mathematics

STUDY SKILLS

IN MATHEMATICS

Handout for firstyear students.

All the documentation is available on the WWW(http://www.maths.cam.ac.uk/).

September 22, 2005


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1 Introduction

Learning mathematics is very different from learning other subjects,

as anyone who tries to read a mathematics text book soon finds out.And learning mathematics at university is very different from learn-ing mathematics at school, as anyone who sits through a universitylecture soon finds out. Intense is the word that springs to my mindwhen I try to describe the difference in style between school anduniversity mathematics.

Lectures are intense compared with lessons because there arecomparatively few of them; supervisions are intense compared withlessons because you go over a weeks work in a single hour; work isintense because terms are much shorter (the 8 weeks looming aheadof you may seem an eternity, but I promise that in 8 weeks time youwill be wondering what happened to the time); and examinations areintense because you have to cram a years work into 4 three-hourpapers taken in the space of a few days.

This booklet is intended specifically for first year mathemati-cians; it was written for you. I hope that it will help you to make themost of your time at Cambridge.

Stephen Siklos,Faculty of Mathematics,Cambridge.

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2 Lectures

The really big difference between school and university is in lectures.

The lecturers have only 12 lectures a week in which to give you enoughmaterial to keep you occupied for the other 156 hours. Therefore, thematerial comes at you pretty fast.

It follows that, whereas at school you probably expected to un-derstand what the teacher said as it was said, here there will be greatchunks of the notes which you will not understand until you haveworked on them later: line by line, if necessary. Even then, theremay be some parts of the course that only really come clear whenyou come to revise the material.1

Nevertheless, it is important to try to understand as much aspossible of what is being said as it is said. Apart from saving timelater, you may otherwise miss vital explanations and insights. So:

Do make the effort to concentrate. We have all heard that, ina mathematics lecture, what the lecturer writes on the black-board goes straight into the students notebook without passingthrough the brain of either. You should do everything in yourpower to prevent this happening: sit near the front if you find50 minutes of mathematics a strain; dont let your thoughtswander; and remember that concentration is just a matter ofself-discipline and practice.

Do ask questions during the lecture rather than let somethingpass by. If the lecturer is writing too fast, or too illegibly, or isspeaking too quietly for you, it is likely that others are havingthe same difficulty.

Dont be afraid to ask what you may think is a silly question.Nine times out of ten, most of the rest of the audience will beimpressed (if only with your bravery) and many of them willalso want to know the answer. And it is just possible that thelecturer has made a mistake.

1Reread this last paragraph! It is easy to become discouraged if you do not

fully appreciate this message.

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Do try to appear responsive: look up when you have finishedwriting and are ready for more (this helps the lecturer pace thelecture); look puzzled when you are puzzled (so that the lecturerknows when more explanation is required); allow a gleam ofrecognition to surface if you suddenly realise what is going on.(Bob Hope, the American comedian, used to say that he likedBritish audiences, because even if they dont feel like laughingat one of his jokes, they nod their heads to show that they haveunderstood it.)

The usual convention in lectures is that you write down exactlywhat the lecturer writes on the board or OHP. You may find thatyou can supplement this a little during the lecture but often therewill not be time. Here are some very important trivialities:

Write clearly; lost suffices can cause hours of frustration. Also,mathematicians love to use obscure Greek symbols, many ofwhich are practically indistinguishable, such as and ; accu-rate representation is essential. (It is no use simply adoptingthe convention that is the one with more squiggles, becausethey do not always appear together on the same page.) Also, itis a pleasure to revise from neat and accurate notes and a realchore if you have a scruffy mess in front of you.

Write the page number and lecture number on each sheet; ifyou drop your notes or get into a muddle photocopying them,you will find that one page of mathematics looks very like anyother. This may seem a ludicrously trivial point. A few yearsago when there was a severe water shortage the water boardsput out an advertisement telling everyone to turn off the tap

while brushing teeth. The purpose was not just to save thecupful of water, but to put people in the right frame of mindfor making other more significant savings. You will find thatnumbering your pages will help with the overall orderliness thatcan be a great time saver.

Leave wide margins; you will certainly need to annotate whenyou go through later.

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File your work (annotated lecture notes and supervision mate-rial) in an orderly way; this will save a lot of time when youcome to revise.

Here is the most important tip:

you will save an immense amount of time if you always

get to grips with one lecture before going to the next.This way, you will get much more out of the lectures, which willin turn save time when you go through your notes later. Youshould therefore set aside a slot each day for going through yourlecture notes not just reading them, but working through

them line by line. This is easy to say but hard to do; as soonas you fall behind it requires an enormous effort to catch upagain.

One final point. You may think that the lecturer is talking to youas a big group, but the lecturer actually sees a large number of indi-viduals. You should extend to the lecturer the normal courtesies ofan individual conversation; behave as if the lecturer is talking to youpersonally. Dont, for example, spend the lecture chatting to your

neighbour or reading the newspaper. This is most distracting for therest of the audience and also for the lecturer, and is a sure recipe fora poor lecture. And pleaseremember to turn off your mobile phonein lectures; or, better still, leave it in your room.

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3 Supervisions

There is not much scope for heated discussion of topical issues in

mathematics supervisions. In fact, any debate at all is difficult, sinceyour opinion seems not to count for much when your supervisor knowsall the right answers (having been told them by his or her supervisorswhen they did the course). I mentioned above that lectures are tosome extent interactive; this is very much the case with supervisions.A good part of the responsibility for making the supervision usefuland interesting lies with you. Remember that most supervisors arehuman beings too: they like you to talk to them and show an interest(e.g. by asking questions) in what they are telling you.

Generally, in a mathematics supervision, you sit at a desk withyour supervisor who will write out solutions to exercises or explana-tions of pieces of mathematics on paper (not on a blackboard). Youshould not take notes yourself; leave your mind completely free toconcentrate on understanding everything your supervisor says. Atthe end of the supervision, you take away what he or she has writtenand (best) use it to annotate, correct or complete your own supervi-sion work or lecture notes, or (second best) file it with your own work.

Your supervision partner can use the notes after you, or photocopythem.If you do not make good use of supervisions, then you will squan-

der one of the most important (and expensive) assets that Cambridgehas to offer. From long years of experience, I recommend that to makebest use of your supervisions, you should:

bring your lecture notes to the supervision, having marked inthe bits you dont follow;

hand your work in on time, so that it can be marked thoroughly;

mark your own work: make a note in the margin whereverthere is a step you are not sure of, or which you have missedout. I am not just telling you this to ingratiate myself with yoursupervisors, though it will undoubtedly make their lives easier:a self-critical approach to your own work will prove invaluablewhen it comes to exam time;

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tell your supervisor (if appropriate and polite) exactly what youwould like him or her to do remember that sometimes yoursupervisor will have much less experience of supervisions thanyou, and will be glad of your advice;

make sure your supervisor writes down enough on each examplefor you to reconstruct the solution afterwards;

have an intelligent question ready in case the supervision isgrinding to a halt with time to spare;

review the supervision as soon as possible afterwards, while itis still fresh in your mind.

Last of all, here is the most important tip: do not be lazy. It is veryeasy to let what the supervisor is saying just wash over you, perhapshoping that all will come clear later. If you dont understandwhat the supervisor has done, say so.

Solving problems (see page 7): write down your thoughts . . .

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4 Solving problems

Mathematics is all about problem solving and the only way to test

your understanding of the material is to work through examples. Atschool, problems were fairly short and the answers came out neatly.As an undergraduate, you will find that many problems take ages todo; even if you know exactly what you are doing, each problem maytake a considerable time and several sheets of A4 to complete. (Thisis as it should be: at research level, problems take months or yearsor may simply be unsolvable.) Here are some thoughts on tacklingproblems.

If you cannot get started on a problem, try the following, inorder.

Reread the question to check that you understand what is wanted;

Reread the question to look for clues the way it is phrased,or the way a formula is written, or other relevant parts of thequestion. (You may think that the setters are trying to setdifficult questions or to catch you out; nothing could be furtherfrom the truth. They are probably doing all in their power to

make it easy for you by trying to tell you what to do).

Try to understand what it is that you dont understand. Forexample, look up the definitions of the technical terms oftenthis will open up new vistas.

Look for a similar problem in your notes or in a textbook.

Simplify the notation e.g. by writing out sums or vectorcomponents explicitly.

Look at special cases (reduce the number of dimensions, choosespecial values which simplify the problem) to try to understandwhy the result is true.

Write down your thoughts in particular, try to express theexact reason why you are stuck.

Go onto the next question and go back later.

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enable a quick check. Be wary of applying familiar processes to un-familiar objects (very easy to do when you are feeling at sea): forexample, when dealing with matrices, it is all too easy to write ABinstead ofBA with nice simplifications in view; or to solve the vectorequation a.x = 1 by dividing both sides by a. If your calculationsseem to be all right, then go over the steps above.

If you are notstuck, then:

Write out the solution fully; it is not good enough just to glanceat an example and skip it if it looks easy.

Look back over what you have done, checking that the argu-

ments are correct and making sure that they work for any spe-cial cases you can think of. It is surprising how often a chainof completely spurious arguments and gross algebraic blundersleads to the given answer.

Make sure that you are not unthinkingly applying mathematicaltools which you do not fully understand.3

Try to see how the problem fits into the wider context and seeif there is a special point which it is intended to illustrate.

Make sure that you actually understand not only what you havedone, but also why you have done it that way rather than someother way. This is particularly important if you have workedfrom a similar example in the notes (or if you sought advicefrom a pal).

3Mathematicians should feel as insulted as Engineers by the followingjoke.

A mathematician, a physicist and an engineer enter a mathematics con-test, the first task of which is to prove that all odd number are prime. Themathematician has an elegant argument: 1s a prime, 3s a prime, 5s aprime, 7s a prime. Therefore, by mathematical induction, all odd numbersare prime. Its the physicists turn: 1s a prime, 3s a prime, 5s a prime,7s a prime, 11s a prime, 13s a prime, so, to within experimental error,all odd numbers are prime. The most straightforward proof is providedby the engineer: 1s a prime, 3s a prime, 5s a prime, 7s a prime, 9s aprime, 11s a prime . . . .

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5 Examinations

Examinations used to be really tough. In the Mathematical Tri-

poss heroic period, at the end of the nineteenth century, candidateshad to sit through 36 hours of extremely hard papers. One year inthe 1880s, the maximum possible mark was 33,541 and the SeniorWrangler (that is the man who came top of the list) scored 16,368,i.e. about half marks, which works out at roughly 8 marks/minute.The Wooden Spoon (that is the man who came bottom of the passlist) amassed a grand total of 247.

Nowadays, the examinations are much more friendly, being de-signed to test your knowledge of the courses you have attended ratherthan your ability to jump through mathematical hoops. Nevertheless,strategy matters. Extreme marks (either high or low) are available inmathematics examinations, which means that playing the cards youhold to best advantage is of vital importance.

Here are some thoughts; youve heard them all before, but thatdoes not make them any less worth saying. The examinations may besome way off, but you will find that good examination technique canbe acquired over the course of the year by making suitable prepara-

tions and developing good habits. (For example, the first two pointsassume that your years work is in good order.)

For revision, work through examples while reading the relevantsection of your notes (just reading is not enough).

For last minute preparation, look through your supervisionwork to remind yourself how to do questions.

In the examination, above all, stay cool if it is hard for you,

it is probably hard for everyone.

Dont rush into a question read the whole paper carefully andstart with the question you feel most confident about.

Analyze exactly what you are being asked to do; try to under-stand the hints (explicit and implicit); remember to distinguishbetween terms such as explain/prove/define/etc.

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Remember that different parts of a question are often linked (itis usually obvious from the notation) and choice of variables.

Set out your answer legibly and logically (dont scribble downthe first thought that comes into your head) this not onlyhelps you to avoid silly mistakes but also signals to the examinerthat you know what you are doing (which can be effective evenif you havent the foggiest idea what you are doing).

If you get stuck, state in words what you are trying to do andmove on (at A-level, you dont get credit for merely statingintentions, but university examiners are generally grateful for

any sign of intelligent life).

Solving problems: some problems may have hidden depths.

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6 Feedback

You will have plenty of opportunities to express your views. Please

use them, even if it is too late for you to benefit. Lecturerswant to give you the best course possible and welcome constructivefeedback on both style and content. You must share the responsibil-ity.

Towards the end of each course, the lecturer will distribute ques-tionnaires and allow a little time in one lecture for you to fill themin. There will also be an electronic questionnaire at the end of theyear. In addition, you can at any time e-mail the faculty hotline([email protected]); hotline will either deal with your com-ment, or pass your e-mail to the relevant person.

In all cases:

Try to be specific.

Make comments which the lecturer can act on.

Resist the temptation to be rude and/or clever.

Resist the temptation to make personal comments about the

lecturer and his or her appearance.4

Bear in mind that it takes a great deal of time and effort andthought to produce a lecture course plus examples sheets andhandouts.

Remember that you are only giving opinion: even if you hatedthe course others may have enjoyed it.

Be aware that a course you found dull or incoherent or difficultmay seem very different when you come to revise it.

4Although if you have found some of his or her mannerisms distracting, you

might want to mention it. A rare exception to the rule: when a professor in Texas

took to lecturing in a cowboy hat, one of the evaluation forms had the comment

All hat, no cattle. Which is pretty funny and probably not unkind.

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The following comments are taken from questionnaires from re-cent years ago (NB lecturers change after about 3 years). Judge foryourself which ones are useful.

Algebra and Geometry, Michaelmas 199N, Dr X:

Although the lecturer would plainly be happier teaching classics, heshould remember that he is very obviously not qualified to do so andshould perhaps attempt to provide clear teaching of mathematicsinstead. Valid proofs would also be welcomed.

Dr X was brilliant. [NB: same lecturer and lecture course as thecomment above.]

Good introduction to group theory that possibly went a bit fast.The course appears difficult to start with but is actually not too badonce read through a few times. The printed notes were a good idea.

Excellent lecturing and an interesting subject. I felt that some of theproofs were a little wordy and not precise enough.

I found the abstract ideas difficult to understand. The lecturer madeit worse by using the word trivial and giving no explanation when Ithought it was far from trivial.

Mathematics for NST, Easter 199N, Dr S

The Fourier lectures were incomprehensible and going slower wouldhave made no difference as the lecturer was crap.

Excellent course, excellent lecturer. Can he lecture all the courses?

The section on matrices was a bit slow.

The little anecdotes were very interesting/amusing.

Dr S was brilliant. Handouts very useful. Sometimes the writing on

the overheads was unclear.The lecturer left long pauses which tended to break my concentration.

Too many proofs; not enough worked examples.

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7 And finally . . .

Mathematics is difficult. However, it is no more difficult than any-

thing else just difficult in a different way. Most people cannot reada chapter of a maths book and expect to end up with a decent un-derstanding of the material. It has to be worked at, line by line.Dont be discouraged: it is just a different way of learning and noworse than the wading through of hundreds of often contradictorytextbooks that many of your friends will have to suffer. And thereare few more satisfying (academic) achievements than the successfulproof of a tricky mathematical proposition.

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